Ice at 0°c is placed in a Styrofoam cupcontaining 0.32 kg of lemonade at 27°C . The specific1.heat capacity of the lemonade is virtually the same asthat of water, c = 4186 J/kg °C. After the ice andlemonade reached the equilibrium temperature, some%Dice still remains. The latent heat of fusion for water isL-3.35 x105 J/kg. Assume that the mass of the cupis so small that it absorbs a negligible amount ofheat, and ignore any heat lost to the surroundings.Determine the mass of ice that has melted.

Given: The temperature of ice is 0 C. The mass of lemonade is 0.32 kg. The initial temperature of…

1. Ice at 0°c is placed in a Styrofoam cup containing 0.32 kg of lemonade at 27°C. The specific heat capacity of the lemonade is virtually the same as that of water, c = 4186 J/kg °C. After the ice and lemonade reached the equilibrium temperature, some %3D ice still remains. The latent heat of fusion for water is Lf=3.35 x105 J/kg. Assume that the mass of the cup is so small that it absorbs a negligible amount of heat, and ignore any heat lost to the surroundings. Determine the mass of ice that has melted.

1. Ice at 0°c is placed in a Styrofoam cup containing 0.32 kg of lemonade at 27°C. The specific heat capacity of the lemonade is virtually the same as that of water, c = 4186 J/kg °C. After the ice and lemonade reached the equilibrium temperature, some %3D ice still remains. The latent heat of fusion for water is Lf=3.35 x105 J/kg. Assume that the mass of the cup is so small that it absorbs a negligible amount of heat, and ignore any heat lost to the surroundings. Determine the mass of ice that has melted.

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter1: Temperature And Heat

Section: Chapter Questions

Problem 83P: To help prevent frost damage, 4.00 kg of water at 0 is sprayed onto a fruit tree. (a) How much heat...

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